Apparatus and method for cannulation of vascular access vessel

ABSTRACT

An apparatus is provided for rotatable selection of sites for cannulation with a needle along a subcutaneous vascular access vessel. The cannulation site selection apparatus comprises a template having an inner surface and an outer surface, and a plurality of visible markings on the outer surface of the template. The template is adapted to be disposed adjacent the subcutaneous vascular access vessel such that the markings align with the cannulation sites along the vascular access vessel for selecting a site for cannulation with a needle into the vascular access vessel.

BACKGROUND

An apparatus and method is described for needle access of a surgically created vascular access for use as a means to receive hemodialysis and other procedures requiring vascular access and, more particularly, an apparatus and method for vascular access of an arteriovenous fistula or arteriovenous graft that enables location of cannulation sites post-implant.

Hemodialysis is a life-sustaining treatment for patients with end stage renal disease. Hemodialysis is a process whereby large amounts of blood are removed from the body, filtered through a machine that removes wastes, and then returned into the body.

A vascular access site on the body where blood will be removed and returned during hemodialysis is prepared before starting hemodialysis. High-flow access to a patient's circulation is achieved in a surgical anastomosis creating an arteriovenous fistula (“AVF”) in which a vein is connected directly to an artery. Alternatively, the connection between the artery and the vein may be formed using a prosthetic arteriovenous graft (“AVG”) made from a synthetic material and implanted just under the skin. Placement sites for AVG's include, without limitation, the forearm, upper arm, neck, chest, and thigh, in either straight or looped configurations.

Once a vascular access vessel is surgically positioned, the AVF or AVG becomes a conduit that can be used repeatedly for vascular access during hemodialysis. Needles are used to cannulate through the skin, directly puncturing the walls of the vascular access vessel. In conventional hemodialysis, two cannulas are placed in the vascular access vessel, with one efferent needle puncture being made in the graft wall in the arterial side and another afferent needle puncture being made in the venous side. During dialysis, blood is withdrawn from the arterial side via the first needle, passed through a hemodialysis machine, and then returned to the patient through the second needle inserted in the venous.

A significant step in the hemodialysis procedure is “finding” the proper position within along the vascular access vessel to perform the needle sticks. Moreover, conventional dialysis protocols require a patient to undergo a dialysis procedure at least three times a week. As a result, the skin and underlying tissue are punctured numerous times per week to gain entry into the vascular access vessel. The technique of cannulating an AVF or AVG for hemodialysis requires considerable skill. A vascular access vessel often lies several centimeters below the surface of the skin and cannot be located by visual inspection. A medical technician is required to locate the AVF or AVG by palpation, which can prove to be extremely difficult. The punctures of the vascular access are prone to error and complication. Punctures done incorrectly may promote rupture of the access, bleeding, hematoma formation, pseudoaneurysm formation, severe pain or the development of organized thrombi within the lumen of the graft. The formation of such blood clots may result not only in multiple graft thromboses, but may eventually lead to graft failure. Missing the vascular access entirely or improperly positioning of the needle within the lumen of the AVF or AVG device are two contraindications, which adversely affect the time the graft remains patent. Locating the cannulation area simply by using conventional methods of palpating through the skin is sometimes unreliable.

Chronic repeated insertion of the needles eventuates in traumatic breakdown of the skin, and traumatic breakdown and stenosis of the graft site, particularly in the vicinity of its venous anastomosis. Traumatic breakdown and stenosis requires thrombectomies, AVG salvage, surgical revision procedures and new surgical constructions. Vascular access life may be prolonged with patch angioplasty at venous outflow stenoses or by adding a new segment of the AVG to bypass areas of venous stenosis. Vascular access life may also be prolonged by rotating and tracking puncture sites to allow maximum healing between punctures at a particular site.

For the forgoing reasons, there is a need for an apparatus and method for proper cannulation of a vascular access fistula or graft, including correct identification of an access region of the vascular access following implantation. The new apparatus should improve access to the implanted AVF or AVG by allowing a user of the vascular access vessel to facilitate accurate and reproducible entry into the implanted AVF or AVG of dialysis needles, cannulas, and the like, which are introduced into the vascular access via insertion through the skin. Ideally, the new apparatus and method should minimize trauma, pain and risk of infection while also maximizing the functional integrity and longevity of the fistula or graft used in hemodialysis.

SUMMARY

An apparatus is provided for rotatable selection of sites for cannulation with a needle along a subcutaneous vascular access vessel. The cannulation site selection apparatus comprises a template having an inner surface and an outer surface, and a plurality of visible markings on the outer surface of the template. The template is adapted to be disposed adjacent the subcutaneous vascular access vessel such that the markings align with the cannulation sites along the vascular access vessel for selecting a site for cannulation with a needle into the vascular access vessel.

The vascular access vessel may be an arteriovenous dialysis access graft subcutaneously implanted in a body of a patient or an arteriovenous fistula in a body of a patient.

In one aspect, the plurality of visible markings on the template comprises an amount of cannulation site selection markings such that a user can cannulate the vascular access vessel at a different cannulation site selection marking for four weeks of treatment. The plurality of visible markings may be on a first side and a second side of a longitudinal axis of the template.

In a further aspect, the template may comprise a key on the template, the key describing the schedule for rotation of the cannulation site selection markings. The key can include a reproduction of an image of a forearm and a wrist of a patient and, further, a reproduction of an image of a torso of a patient.

In one aspect, the template has at least one passage opening, the template defines holes along an edge of the template, the holes spaced at set distances from one another, and is adapted to be disposed adjacent the subcutaneous vascular access vessel such that the holes align with the cannulation sites along the vascular access vessel for selecting a site for cannulation with a needle into the vascular access vessel.

In yet another aspect, the template is translucent.

A sleeve may be provided, the sleeve defining a pocket for receiving the template, wherein the sleeve is configured to accommodate the body of the subject adjacent the subcutaneous vascular access vessel such that the markings align with the cannulation sites along the vascular access vessel for selecting a site for cannulation with a needle into the vascular access vessel. In this embodiment, the vascular access vessel is an arteriovenous dialysis access graft subcutaneously implanted in a body of a patient, or an arteriovenous fistula in a body of a patient.

A kit is also provided, the kit comprising at least one dialysis needle for accessing a subcutaneous vascular access vessel in a body of a patient, a dispenser, a template having an inner surface and an outer surface, and a plurality of visible markings on the outer surface of the template. The template is adapted to be disposed adjacent the subcutaneous vascular access vessel such that the markings align with cannulation sites along the vascular access vessel for selecting a site for cannulation with the needle into the vascular access vessel.

In another embodiment, an apparatus for rotatable selection of a cannulation sites along a vascular access vessel comprises a template having an inner surface and an outer surface, the template defining at least one opening extending from the outer surface to the inner surface, and a skin marking device. The template is adapted to be disposed adjacent the subcutaneous vascular access vessel such that the at least one opening aligns with a cannulation site along the vascular access vessel for selecting the site for cannulation with a needle into the vascular access vessel by marking through the opening with the skin marking device. A spacer may be provided, the spacer defining a hole to be aligned with the last cannulation site for marking the arm beyond the periphery of the spacer.

A method is also contemplated for rotatable selection of sites for cannulation with a needle along a subcutaneous vascular access vessel. The cannulation site selection method comprises the steps of providing a template having an inner surface and an outer surface, disposing a plurality of visible markings on the outer surface of the template, positioning the template adjacent the subcutaneous vascular access vessel such that the markings align with the cannulation sites along the vascular access vessel, and selecting a site for cannulation with a needle into the vascular access vessel.

In one aspect, the cannulation site selection method further comprises the step of cannulating the vascular access vessel at a site corresponding to a second cannulation site selection marking, wherein the second cannulation site selection marking is spaced from the first cannulation site selection marking. Moreover, the step of cannulating the vascular access vessel at a site corresponding to a third cannulation site selection marking follows, wherein the third cannulation site selection marking is spaced from the second cannulation site selection marking. The plurality of visible markings on the template comprises an amount of cannulation site selection markings such that a user can cannulate the vascular access vessel at a different cannulation site selection marking for four weeks of treatment.

The cannulation site selection method may further comprise the step of implanting an arteriovenous dialysis access graft in a body of a patient, or the step of surgically forming an arteriovenous fistula in a body of a patient.

In another aspect of the method, the cannulation site is cannulated to provide access to the vessel for single-needle hemodialysis.

BRIEF DESCRIPTION OF THE DRAWINGS

For a more complete understanding of the present apparatus and method, reference should now be had to the embodiments shown in the accompanying drawings and described below. In the drawings:

FIG. 1 is a top plan view of an embodiment of an apparatus for cannulation of a vascular access vessel.

FIG. 2 is a top plan view of another embodiment of an apparatus for cannulation of a vascular access vessel.

FIG. 3 is a top plan view of a third embodiment of an apparatus for cannulation of a vascular access vessel.

FIG. 4 is a top plan view of a fourth embodiment of an apparatus for cannulation of a vascular access vessel.

FIG. 5 is a top plan view of a fifth embodiment of an apparatus for cannulation of a vascular access vessel.

FIG. 6 is a top plan view of a sixth embodiment of an apparatus for cannulation of a vascular access vessel.

FIG. 7 is a top plan view of a seventh embodiment of an apparatus for cannulation of a vascular access vessel.

FIG. 8 is a perspective view of an eighth embodiment of an apparatus for cannulation of a vascular access vessel including a mobile telephone.

FIG. 9 is a perspective view of another embodiment of an apparatus for cannulation of a vascular access vessel including a mobile telephone.

FIG. 10 is a schematic perspective view of an embodiment of a wristband for use with an apparatus for cannulation of a vascular access vessel.

FIG. 11 is a top plan view of a ninth embodiment of an apparatus for cannulation of a vascular access vessel.

DESCRIPTION

As used herein, the term “vascular access” is used to mean access to a vessel comprising an intended surgical connection between an arterial and venous system through which blood flows from the artery to the vein. As noted above, this can be achieved by an anastomosis directly connecting a vein to an artery (AVF) or by utilizing a synthetic or autologous conduit for anastomosis to an artery at one end and a vein at the other end to connect the arterial and venous systems (AVG). Because there are many types of AVG's and associated components that are well known in the art and that may be utilized with the present apparatus and method, a more detailed description of these components is not required. It is understood that the present apparatus and method is not directed to only to AVF nor to any particular type of AVG. The vascular access apparatus and method described herein is for use in medical procedures requiring vascular access. Accordingly, the features described herein may be used with any conventional vascular access vessel including AVG's including, but not limited to, the AVG described by U.S. Pat. No. 9,585,998, the contents of which are hereby incorporated by reference herein in their entirety. A similar application is shown and described in U.S. Pub. Application No. 2014/0336682, the contents of which are also incorporated by reference herein in their entirety. Accordingly, detailed explanations of the functioning of all of the components and use of vascular grafts are deemed unnecessary for understanding of the present description by one of ordinary skill in the art.

Certain terminology is used herein for convenience only and is not to be taken as a limiting. For example, words such as “upper,” “lower,” “left,” “right,” “horizontal,” “vertical,” “upward,” “downward,” “top” and “bottom” merely describe the configurations shown in the FIGs. Indeed, the components may be oriented in any direction and the terminology, therefore, should be understood as encompassing such variations unless specified otherwise. The words “interior” and “exterior” refer to directions toward and away from, respectively, the geometric center of the core and designated parts thereof. The terminology includes the words specifically mentioned above, derivatives thereof and words of similar import.

Referring now to the drawings, wherein like reference numerals designate corresponding or similar elements throughout the several views, an apparatus for use in a method for cannulating a vascular access vessel connecting an artery to a vein is shown in FIG. 1 and generally designated at 20. The cannulation template 20 has markings 22 used to locate and implement cannulation at a site as well as for presenting a rotation plan for successive cannulations. The cannulation template 20 provides a device for rotatable selection of cannulation sites along a vascular access vessel for hemodialysis. As a result, the vascular access vessel is allowed increased healing time before re-cannulation occurs at a particular site. Properly spacing and rotating cannulation sites using the cannulation template 20 can extend the life of an arteriovenous fistula or arteriovenous graft and reduce the likelihood of failure of the vascular access. The cannulation template 20 as described herein can also be used to assist users with properly inserting a needle into a site to carry out hemodialysis treatments.

FIG. 1 shows a first outer side 24 of an embodiment of the cannulation template 20 to be used for a patient with, for example, an arteriovenous graft. The outer side 24 surface has markings 22 for the user to plan and select cannulation sites. More particularly, the cannulation template 20 has a first marking located, for example, at one end of the cannulation template 20, and additional markings extending the length thereof. In use, the first marking 22 is poisoned adjacent the anastomosis made surgically between adjacent blood vessels, or other channels of the body, and indicates a first site for cannulation.

In one embodiment, the cannulation template 20 is made of a flexible material. The cannulation template 20 may, for example, be made of a flexible plastic, although paper, metal foil or a substantially equivalent material is suitable. The material from which the cannulation template 20 is formed is sufficiently flexible such that the apparatus can be bent around a patient's body part without breaking. This configuration of the cannulation template 20 allows a user to orient the cannulation template 20 appropriately along a patient's arteriovenous fistula or graft. As a result, the cannulation template 20 may be easily contoured along a vascular access vessel allowing selection of a cannulation site regardless of the vessel geometry.

Referring to FIG. 1, the cannulation template 20 has the array of markings 22 along the length. The markings 22 include boundary lines 23 providing an exemplary hemodialysis access configuration comprising an array of twelve cannulation sites, indicated in FIG. 1 by labels A through L at reference numerals 30 a through 30 l. Each label 30 a-30 l indicates a site where along the vascular access vessel cannulation should occur for hemodialysis treatment. The array of cannulation sites is used in a rotatable selection of a series of hemodialysis cannulation sites along an AVF or AVG for hemodialysis access of a patient. The user determines the number of available cannulation sites along the vascular access vessel based on the number of cannulation site markings corresponding to viable locations for cannulation along the vessel. Based on the number of available cannulation sites, the user has a defined number of treatments that can be completed before repeating a cannulation site. As shown in FIG. 1, the array includes twelve indicators for cannulation sites at which a hemodialysis needle may be cannulated. A cannulation site corresponds with a cannulation site label 30 a-30 l. Each correspondingly labeled access site is an indicator where an arterial access needle and a venous access hemodialysis needle are simultaneously cannulated. In this embodiment, the cannulation sites associated with labels 30 a, 30 e and 30 j will be cannulated during week 1, the cannulation sites associated with labels 30 d, 30 g and 30 k will be cannulated during week 2, the cannulation sites associated with labels 30 b, 30 f and 30 i will be cannulated during week 3, and the cannulation sites associated with labels 30 c, 30 h and 30 l will be cannulated during week 4. The indicated sites 30 a-30 l represent arterio-venous cannulation sites that are properly spaced and successively employed in an exemplary twelve successive hemodialysis sessions that comprise an exemplary hemodialysis cycle. With twelve available cannulation sites, given that the patient requires three hemodialysis treatments per week, a four week rotation plan for cannulation sites is provided. Each treatment may use a new site until treatment at the site 30 l is completed. Then, at the next treatment, the user would return to re-cannulate site 30 a. The user will then cannulate at each of the subsequent chosen cannulation sites in the same rotation. By sequentially using the paired arterial and venous hemodialysis needles along the pathway of the vascular access vessel, the maximum number of available cannulation sites to be used in subsequent treatments and cannulation trauma to the vessel is evenly distributed over time and repeated cannulation of the same sites is avoided. The longevity of the vascular access vessel is accordingly extended.

The markings 22 on the cannulation template 20 may also be of different colors so as to make the markings 22 easier to read or distinguish from one another. For example, the cannulation site labels 30 a-30 l for each week may be in contrasting colors, such as red, blue, green and gold for weeks 1-4, respectively. Instead of visual means the markings 22 for the cannulation zones may be delineated by physical means, raised or recessed material that physically separates the individual zones.

Similarly, the cannulation site labels on the cannulation template may have differing shapes, for example, arrows for arterial access and lines for venous access. As shown in FIG. 3, cannulation zones do not need to be set in a grid fashion, thus the shapes can be abstract and non-typical to maximize cannulation area or increase separation between needle sticks. The shape could be chosen to accommodate any vascular access vessel. The shape of the cannulation template 60 could include, but is not limited to, any shape intended to accomplish the goal of rotating needle sites.

The rectangular cannulation template 20 shown in FIG. 1 is about 2 inches long and about one-half inch wide. Adjacent cannulation sites are separated by about 0.5 centimeters to about 1 centimeter. However, these distances may differ based on a patient's condition. While the cannulation template 20 of the embodiment shown is rectangular in shape, other embodiments of the cannulation template 20 may be other shapes and dimensions. For example, as shown in FIG. 10, a cannulation template may be ovular and have a curved edge such that the apparatus could be placed along a curved vascular access vessel for determining available cannulation sites or measuring from one site to the next.

The markings 22 on the cannulation template 20 are substantially permanent so as not to be smudged or wiped away upon sterilization between uses. Sterilization may be performed by submerging the cannulation template 20 in a 1% bleach solution for twenty minutes. The markings 22 may be designed to withstand degradation during other sterilization procedures, which may include sterilization by ultraviolet light, a higher or lower concentration of bleach for a longer or shorter soaking time, or hydrogen peroxide. As a result, the cannulation template 20 is reusable and easy to clean. The markings 22 on the cannulation template 20 may be obtained by reproductive means, such as, for example, conventional photography, digital photography, manual drawing, digital imaging or substantially equivalent means. The hemodialysis access configuration represented by the markings 22 may be transferred to the cannulation template 20 by transfer means such as, for example, printing, lithography, photocopying, or substantially equivalent means. It is understood that other information may be printed on either surface of the cannulation template 20. For example, this arrangement allows for usage instructions to be printed on at least one side. Alternatively, the flexible member may be translucent.

The cannulation template 20 may be used with an arteriovenous fistula or arteriovenous graft. As described above, an arteriovenous graft hemodialysis access configuration surgically substitutes a conduit between an artery and a vein for a surgically created fistula. The description of the method that follows is in connection with the use of the AVG for hemodialysis. It is understood that the present vascular access configuration is equally applicable to a patient with the AVF for hemodialysis.

In use, a user places the cannulation template 20 on a patient's arm at the arteriovenous anastomosis, or another bodily area where vascular access is to be obtained. To determine a first cannulation site, the user orients the cannulation template 20 along the AVG used to create the vascular access. In orienting the cannulation template 20 along the vascular access vessel, the user places the left end 26 bearing the first markings 22 adjacent to the anastomosis. The flexibility of the material of the cannulation template 20 allows the user to contour the cannulation template 20 along the AVG. As the cannulation template 20 is contoured along the vessel, the first label 30 a indicates a first cannulation site in the array, creating a visual “stick zone” along the vessel indicating to the user that a pair of cannulation needles should be inserted in that area.

The user inserts a first cannulation needle at the site 30 a for providing arterial vascular access to the patient. During hemodialysis treatment, the patient's blood will flow from the AVG, through the needle, and into tubing. The blood will pass through the tubing to an extracorporeal blood circuit and is returned through a venous needle inserted into the vascular vessel at the site 30 a. When treatment is completed, the needles are removed, and the cannulated site 30 a may begin to heal. Because of the design of the cannulation template 20, the first site 30 a will typically not be re-cannulated until all other possible cannulation sites along the cannulation template 20 have been used. In this embodiment, site 30 a will have four weeks to heal before re-cannulation.

When the patient requires a subsequent hemodialysis treatment, the user again begins by placing the first end of the cannulation template 20 at the anastomosis of the patient and orienting the cannulation template 20 along the AVG. The user will then select a different cannulation site to use for vascular access, specifically, the cannulation site associated with site selection label “W/TH” 30 j. It is understood that the user may assess the viability of the available cannulation sites. For example, if the cannulation site 30 j along the AVJ identified by cannulation site selection marking is not viable based on the condition of the AVG, the user would then select the next subsequent site for cannulation.

The user cannulates the selected site 30 j with a first needle to provide arterial vascular access to the AVG for hemodialysis treatment and a second needle to provide venous vascular access to the AVG. Blood is removed from the patient through the first needle and returned through the second needle. When treatment is completed, the needles are removed and the cannulated site 30 j may begin to heal. The second suite 30 j will typically not be re-cannulated until all other possible cannulation sites have been used. In this embodiment, the site 30 j will have four weeks to heal before re-cannulation.

While the cannulation template 20 of the embodiments shown and discussed above are discussed mainly for use in cannulating a patient for hemodialysis treatments, the cannulation template 20 may be used in cannulating patients for hemofiltration, hemodiafiltration, ultrafiltration, or other medical treatments where cannulation or insertion of an instrument into the body at a particular position or angle is necessary.

The cannulation template 20 and method as described herein identifies successive hemodialysis needle cannulation sites along a marked pathway of a corresponding vascular access vessel. The cannulation template assists the user, whether an in-center dialysis technician or a self-cannulator, to use best practice in cannulating a vascular access vessel for hemodialysis to ensure proper needle site rotation to maximize tissue healing, reduce graft degradation, and provide a clear protocol for where and when to cannulate a vascular access vessel. Cannulation trauma to the vessel is evenly distributed over time and space, and repeated cannulation of the same sites is minimized. As a result, the longevity of the vascular access vessel is extended.

FIG. 2 shows a second embodiment of a cannulation template generally designated at 40. The cannulation template 40 is oval and includes markings 42 on an outer side 24 surface comprising boundary lines 43 separating the template 40 into twelve cannulation zones. In use, the first marking 42 is positioned adjacent the anastomosis made surgically between adjacent blood vessels, or other channels of the body, and indicates a first site for cannulation. The array of markings 42 along the cannulation template 40 provides an exemplary hemodialysis access configuration comprising an array of twelve cannulation sites, indicated in FIG. 2 by labels A through L at reference numerals 50 a through 50 l. Each label 50 a-50 l indicates a site where cannulation should occur along the vascular access vessel for hemodialysis treatment. The array of cannulation sites is used in a rotatable selection of a series of hemodialysis cannulation sites along an AVF or AVG for hemodialysis access of a patient. Cannulation protocols can be developed based on the separate zones, which would facilitate the creation of a prospective cannulation ‘schedule’ to ensure the appropriate cannulation separation between needle sticks. The cannulation template 40 shown in FIG. 2 may be used to design a needle rotation schedule for one or two needles. In single needle dialysis, one needle is inserted into a vascular access vessel. The dialysis machine cycles between removing blood from the patient and delivering blood to the patient through the single needle. If the cannulation template 40 is used for one needle, for example, zones “A” 50 a, “I” 50 i, and “E” 50 e can be used sequentially over the course of one week to ensure that each needle stick is spaced far enough apart to allow adequate tissue healing between sticks.

The cannulation template shown in FIG. 4, generally designated at 70, has markings 72 including boundary lines 73 showing two areas of the template 70 that should be cannulated. In this embodiment, the user employs a circular spacer 82 defining a central hole 83 and creates a marking on a patient's skin through the cannulation template where they intend to cannulate the patient's vascular access. The user thus has some freedom on where to cannulate next, given that the spacer always ensures adequate separation from a previous cannulation. In use, the hole 83 in the spacer 82 is aligned with the last cannulation site. The user can then cannulate anywhere outside of the spacer area. This distance is approximately 0.5 cm to about 1.0 cm to ensure appropriate separation and tissue healing between previous cannulation sites. The cannulation template 70 is then removed, and cleaned for dialysis initiation. Thus, the cannulation template 70 is not present when the dialysis session occurs and the needles are inserted into the patient's vascular access.

FIG. 5 shows a cannulation template generally designated at 90 wherein the cannulation area is unmarked. Markings 92 and twelve labels 100 a-100 l surround the cannulation area.

Another embodiment of a cannulation template not including markings is shown in FIG. 6 and generally designated at 110. In this embodiment, tracking a hemodialysis configuration occurs on the cannulation template 110 itself. The cannulation template 110 comprises physical features to aid the user in selecting cannulation sites in lieu of, or in addition to, cannulation site markings. The cannulation template 110 has holes 120 along opposed longer edges which aid the user in visualizing cannulation sites as the holes may help to frame the cannulation sites. The holes 120 allow a physical item to be clipped, or a marker used to mark, or any other visual or physical component can be used to indicate a progression of previous cannulation sites. If a previous cannulation site is completely healed, other information is necessary to determine the previous cannulation site. In addition, holes in the body of the cannulation template 110 could allow cannulation through the flexible member. For example, the user could lay the cannulation template 110 against the vessel, determine cannulation sites, and cannulate through the hole 120 at that designated cannulation site.

FIG. 7 shows a cannulation template 130 where markings 132 on the template 130 indicate location and orientation of the cannulation template 130. In this embodiment, the cannulation template 130 is used on a forearm 132 for vascular access, which is shown on the template 130. The cannulation template 130 also includes a partial picture of a body of a person to indicate appropriate orientation, wherein one end of the cannulation template 130 is oriented towards a user's hand and the other end is oriented towards the user's body. Other visual cues may be used, such as using a permanent or temporary marking on a user's body or clothing to align with a feature on the cannulation template 130. The background of the cannulation template 130 on the surface 134 of the cannulation template 130 could also be printed to match with the location of a user's skin on which it is located (e.g. elbow crease, forearm veins, etc.).

An embodiment of a cannulation template, generally designated at 150 in FIG. 8, can also be integrated with a software application for cannulation in a hemodialysis configuration. For example, a user could take a picture of a patient's arm, dialysis session, cannulation template 150, or other related item. The picture could be uploaded to a mobile device 162 or server to provide a procedural history of cannulation to allow an assessment of factors such as: A) where the graft has been cannulated most frequently, B) identification of cannulation sites around the time that adverse events are identified, C) evaluation of whether density of graft punctures may lead to adverse events such as pseudoaneurysms, D) total history of cannulation and location, E) a way to transmit data to care providers, etc. The platform could incorporate machine learning and/or artificial intelligence to aid in the tracking and diagnosing of medical events. A picture taken prior to a dialysis session and uploaded provides a recommendation to the user for where to cannulate based on a combination of, for example, previous cannulation sites, previous adverse events, rates of tissue healing, graft integrity, and the like.

FIG. 9 shows an embodiment of a cannulation method similar to FIG. 8 wherein a physical cannulation template is not necessary. A picture of the vascular access vessel 176 uploaded to a mobile device 162 including software provides a digital cannulation template interface and recommends cannulation site for vascular access.

FIG. 10 shows an armband 182 or any other flexible, semi-rigid or rigid item. The armband is adapted to receive the cannulation template 20 for attachment to the forearm 172 of a patient.

In FIG. 11, a slightly arcuate embodiment of a cannulation template is generally designated at 190. It is contemplated that each of the 193, 195 comprise different colors to indicate cannulation sites and protocols to ensure appropriate needle rotation.

Although cannulation templates and method have been shown and described in considerable detail with respect to only a few exemplary embodiments thereof, it should be understood by those skilled in the art that we do not intend to limit the apparatus and method to the embodiments since various modifications, omissions and additions may be made to the disclosed embodiments without materially departing from the novel teachings and advantages, particularly in light of the foregoing teachings. For example, the present cannulation template 20 and method is suitable for use in a number of vascular access devices and applications. While the cannulation template 20 shown and described are discussed in the context of cannulating a patient's arm, the cannulation template 20 may be used with other vascular access positions on a patient. These other positions may include, the leg, the neck, the chest, or the groin. Moreover, while the cannulation templates of the embodiments shown and discussed above are described mainly in the context of a two-needle vascular access procedure, the cannulation templates can also be used for single needle dialysis. Accordingly, we intend to sticker all such modifications, omission, additions and equivalents as may be included within the spirit and scope of the cannulation template 20 and method as defined by the following claims. In the claims, means-plus-function clauses are intended to sticker the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Thus, although a nail and a screw may not be structural equivalents in that a nail employs a cylindrical surface to secure wooden parts together, whereas a screw employs a helical surface, in the environment of fastening wooden parts, a nail and a screw may be equivalent structures. 

1. An apparatus for rotatable selection of sites for cannulation along a subcutaneous vascular access vessel, the cannulation site selection apparatus comprising: a template having an inner surface and an outer surface, the template defining an opening for a plurality of zones for a series of cannulations accessing the vascular access vessel; and a plurality of visible markings on the outer surface of the template, wherein the template is adapted to be disposed adjacent the subcutaneous vascular access vessel such that the opening aligns with an access region of the vascular access vessel and the markings delineate each of the plurality of zones for use as cannulation sites along the vascular access vessel for selecting a site for cannulation into the vascular access vessel.
 2. The cannulation site selection apparatus as recited in claim 1, wherein the vascular access vessel is an arteriovenous dialysis access graft subcutaneously implanted in a body of a patient.
 3. The cannulation site selection apparatus as recited in claim 1, wherein the vascular access vessel is an arteriovenous fistula in a body of a patient.
 4. The cannulation site selection apparatus as recited in claim 1, wherein the plurality of visible markings comprises an amount of cannulation site selection markings such that a user can cannulate the vascular access vessel at a different cannulation site selection marking for four weeks of treatment.
 5. (canceled)
 6. The cannulation site selection apparatus as recited in claim 1, wherein the plurality of visible markings are on a first side and a second side of a longitudinal axis of the template.
 7. The cannulation site selection apparatus as recited in claim 1, wherein the template is translucent.
 8. The cannulation site selection apparatus as recited in claim 1, further comprising a key on the template, the key facilitating alignment of the template for rotation of the cannulation site selection markings.
 9. The cannulation site selection apparatus as recited in claim 8, wherein the key includes a reproduction of an image of a forearm and a wrist of a patient.
 10. The cannulation site selection apparatus as recited in claim 9, wherein the key further includes a reproduction of an image of a torso of a patient.
 11. The cannulation site selection apparatus as recited in claim 1, further comprising a sleeve defining a pocket for receiving the template, wherein the sleeve is configured to accommodate the body of the subject adjacent the subcutaneous vascular access vessel such that the markings align with the cannulation sites along the vascular access vessel for selecting a site for cannulation with a needle into the vascular access vessel.
 12. The cannulation site selection apparatus as recited in claim 11, wherein the vascular access vessel is an arteriovenous dialysis access graft subcutaneously implanted in a body of a patient.
 13. The cannulation site selection apparatus as recited in claim 11, wherein the vascular access vessel is an arteriovenous fistula in a body of a patient.
 14. A kit comprising: at least one dialysis needle for accessing a subcutaneous vascular access vessel in a body of a patient; a dispenser; and a template having an inner surface and an outer surface; and a plurality of visible markings on the outer surface of the template, wherein the template is adapted to be disposed adjacent the subcutaneous vascular access vessel such that the markings align with cannulation sites along the vascular access vessel for selecting a site for cannulation with the needle into the vascular access vessel.
 15. The cannulation site selection apparatus as recited in claim 1, further comprising a skin marking device, wherein the template is adapted to be disposed adjacent the subcutaneous vascular access vessel such that the opening aligns with a cannulation site along the vascular access vessel for selecting the site for cannulation into the vascular access vessel by marking through the opening with the skin marking device.
 16. The cannulation site selection apparatus as recited in claim 15, further comprising a spacer defining a hole to be aligned with the last cannulation site for marking the arm beyond the periphery of the spacer.
 17. The cannulation site selection apparatus as recited in claim 1, wherein the template defines holes along an edge of the template, the holes spaced at set distances from one another, and wherein the template is adapted to be disposed adjacent the subcutaneous vascular access vessel such that the holes align with the cannulation sites along the vascular access vessel for selecting a site for cannulation with a needle into the vascular access vessel.
 18. A method for rotatable selection of sites for cannulation with a needle along a subcutaneous vascular access vessel, the cannulation site selection method comprising the steps of: providing a template having an inner surface and an outer surface; disposing a plurality of visible markings on the outer surface of the template; positioning the template adjacent the subcutaneous vascular access vessel such that the markings align with the cannulation sites along the vascular access vessel; and selecting a site for cannulation with a needle into the vascular access vessel.
 19. The cannulation site selection method as recited in claim 18, further comprising the step of cannulating the vascular access vessel at a site corresponding to a second cannulation site selection marking, wherein the second cannulation site selection marking is spaced from the first cannulation site selection marking.
 20. The cannulation site selection method as recited in claim 19, further comprising the step of cannulating the vascular access vessel at a site corresponding to a third cannulation site selection marking, wherein the third cannulation site selection marking is spaced from the second cannulation site selection marking.
 21. The cannulation site selection method as recited in claim 18, further comprising the step of implanting an arteriovenous dialysis access graft in a body of a patient.
 22. The cannulation site selection method as recited in claim 18, further comprising the step of surgically forming an arteriovenous fistula in a body of a patient.
 23. The cannulation site selection method as recited claim 18, wherein the plurality of visible markings comprises an amount of cannulation site selection markings such that a user can cannulate the vascular access vessel at a different cannulation site selection marking for four weeks of treatment.
 24. The cannulation site selection method as recited claim 18, wherein the cannulation site is cannulated to provide access to the vessel for single-needle hemodialysis. 